WO2014032966A1 - Housing for a domestic refrigeration appliance, and domestic refrigeration appliance - Google Patents

Abstract

The invention relates to a housing (4) for a domestic refrigeration appliance (1), having an outer wall (5) and an inner wall (6), which is spaced apart from the outer wall (5), and having an interspace (7), which is formed between the outer wall (5) and the inner wall (6) and in which at least one vacuum-insulation element (8) is spaced apart from the outer wall (5) and from the inner wall (6), wherein the vacuum-insulation element (8) is connected to a retaining element (9), and the retaining element (9) is connected to a housing wall, wherein, on an outer side (8a) of the vacuum-insulation element (8), said outer side being directed towards an inner side (51a) of the outer wall (5), the retaining element (9) is embedded in a depression (8b) of the vacuum-insulation element (8). The invention also relates to a domestic refrigeration appliance (1) which is intended for accommodating foods and has a housing (4).

Description

 Housing for a household refrigerator and household refrigeration appliance

The invention relates to a housing for a household refrigerating appliance, with an outer wall and an inner wall which is arranged at a distance from the outer wall, and a gap formed between the outer wall and the inner wall, in which at least one vacuum insulation element is arranged at a distance from the outer wall and the inner wall. Furthermore, the invention relates to a household refrigerator with such a housing.

From DE 10 2009 060 079 A1 discloses a refrigerator or freezer with an inner container and a inner container at least partially enveloping wall is known. A space between the inner container and the wall is provided with at least one vacuum insulation panel disposed in the space and a foam material surrounding the vacuum insulation panel. The Vakuumisolierpaneel is spaced by means of spacers mounted on the inner container.

In addition, from DE 10 2009 041 914 A1 a door or a flap for a refrigerator and / or freezer is known. The inner door is contoured and has a plurality of superimposed or juxtaposed depressions. On the inside of the inner door, one or more vacuum panels are glued directly. These have a contouring that corresponds to the negative of the contouring of the inside of the inner door.

It is an object of the present invention to provide a housing for a household refrigerator and such a household refrigeration appliance, in which an improved in terms of insulation effect attachment of a vacuum insulation element is achieved and beyond no undesirable deformations occur on the visible outer wall of the household refrigerator and the housing ,

This object is achieved by a housing and a household refrigerator according to the independent claims. An inventive housing for a household refrigerator comprises an outer wall and an inner wall, which is arranged at a distance from the outer wall. Between the outer wall and the inner wall, a gap is formed, in which at least one vacuum insulation element is arranged at a distance from the outer wall and the inner wall. The at least one vacuum insulation element is connected to at least one retaining element, wherein the retaining element is connected to at least one housing wall. The retaining element is arranged embedded in a recess of the vacuum insulation element on an outer side of the vacuum insulation element facing an inner side of the outer wall. By such a configuration by means of its own separate retaining element, an improved attachment of the vacuum insulation element can be spaced apart from the outer wall and the inner wall in the intermediate space. In addition, achieved by such a specified attachment of the retaining element on the inner wall side facing that occur in the finished state of the housing no undesirable deformation of the outer wall.

The housing is in particular the outer housing of the household refrigerator and the outer wall is in particular the outer wall of the household refrigerator.

It is preferably provided that the holding element is arranged on the outside of the vacuum insulation element completely in the recess. It is particularly advantageous that an outer side of the holding element is arranged flush with the outside of the vacuum insulation element. Although the vacuum insulation element thus has a depression on this outer side, as a result of the quasi filling up of the depression with the retaining element over the entire surface, a flush overall surface is formed, which is thus virtually planar. In a particularly advantageous manner, an equal distance to the inside of the outer wall is therefore virtually given at each surface point of the vacuum insulation element. Precisely this situation can be avoided in the finished housing, in which the outer wall at the level of this vacuum insulation element undesirable dents or the like.

Preferably, the holding element is designed as a bracket holder and the vacuum insulation element clamped by the bracket holder. The retaining element is is preferably provided as a separate component to the vacuum insulation element and clamps or clamps the vacuum insulation element. A very specific connection between the holding element and the vacuum insulation element is achieved.

In particular, it is provided that the holding element completely surrounds the vacuum insulation element and, in this respect, surrounds in particular a band-like or strip-like manner. A particularly noteworthy attachment on the one hand and a vacuum insulation element as small as possible encompassing holding device is achieved. It is preferably provided that the holding element is arranged on one of the inner wall facing the inside of the vacuum insulation element on the inside and protrudes from the inside.

It is preferably provided that the intermediate space between the outer wall and the interior is filled with a foam material. This is advantageous in view of mechanical stability and position fixation of the vacuum insulation element in the gap. Especially in such a filling of this space with foam material occur in conventional cases, the above-mentioned deformations and in particular indentations on the outer wall of the housing. Due to the configuration of the housing according to the invention, it is thus possible, even when this intermediate space is at least partially filled with a foam material, not to lead to such unwanted deformations of the outer wall in the region of the retaining elements. It is preferably provided that a thickness of the foam material between the inside of the outer wall and an outer side of the vacuum insulation element over the entire height and width and thus over the surface of the vacuum insulation element is the same. In this context, the entire surface of the vacuum insulation element is understood to mean that also the embedded retaining element on this outside of the vacuum insulation element contributes to the total area of the vacuum insulation element and is taken into account in this regard. Especially in the region of the holding elements thus no foam material thinning occurs to the outer wall so that also here during the foaming process of the foam material no external wall deformations occur.

After the foaming process, it is known that the insulating foam used, which is for example a rigid polyurethane foam, shrinks. This shrinkage is greater in areas of greater foam thickness than in areas of smaller foam thickness. Thereby, the above-mentioned undesirable deformations occur, which then make themselves noticeable on the outer wall, by having corresponding dents, namely at the locations where a greater foam thickness prevails between the vacuum insulation element and the outer wall. The advantageous embodiment of the invention prevents exactly this.

It is preferably provided that the depression forms in the vacuum insulation element over the entire width of the vacuum insulation element. It can be provided that a plurality of vacuum insulation elements is arranged in the intermediate space.

Furthermore, the invention relates to a household refrigerator with a housing according to the invention or an advantageous embodiment thereof.

In particular, it is provided that the inner wall of the housing represents the boundary wall for a receiving space for food in the interior of the household refrigerator and thus virtually forms the inner wall of the inner container. The household refrigerator may be a refrigerator, a freezer or a combined food refrigerator and freezer.

Embodiments of the invention are explained in more detail below with reference to schematic drawings. Show it:

Fig. 1 is a perspective view of an embodiment of a household refrigerator according to the invention; 2 shows an interior view of a portion of an embodiment of a housing according to the invention;

3 shows a perspective view of a vacuum insulation element with a holding element of the housing according to FIG. 2; and

4a to 4d different embodiments of geometries concerning the

 Deepening in the vacuum insulation element for receiving a partial element of the holding element. In the figures, identical or functionally identical elements are provided with the same reference numerals.

In Fig. 1 a household refrigeration appliance 1 is shown in a simplified perspective view, which may be, for example, a refrigerator or a freezer or a combined appliance and thus a refrigerator and freezer. The household refrigerator 1 comprises a receiving space 2, in which food can be stored.

The receiving space 2 is open at the front and closed by a door 3. The door 3 is hinged to a housing 4 pivotally relative thereto. The housing 4 constitutes the outer housing and comprises an outer wall 5 with vertical outer part walls 5a, 5b, 5c, 5d and 5e.

The housing 4 moreover comprises an inner wall 6, which forms an inner container and thus delimits the receiving space 2, with inner part walls 6a, 6b, 6c, 6d and 6e.

The outer partition walls 5a to 5e are spaced apart from the inner partition walls 6a to 6e.

In the illustration according to FIG. 2, a partial section of the housing 4 is shown, the illustration in the region of the vertically oriented partial walls 5a and 6a being shown here. As can be seen from the illustration in FIG. 2, a gap 7 is formed between the part walls 5a and 6a. In this intermediate space 7, at least one vacuum insulation element 8 is arranged as a vacuum insulation panel, this being spaced from an outer side 61a of the inner part wall 6a and spaced to an inner side 51a of the outer part wall 5a is arranged. As can also be seen from the representation in FIG. 2, the vacuum insulation element 8 is fastened to a retaining element 9 on a housing wall, which in particular is not the part walls 5a and 6a.

The holding element 9 is formed as a separate component to the vacuum insulation element 8 and surrounds the vacuum insulation element 7 in a band-like or strip-like manner. The holding element 9 is designed as a bracket holder and the vacuum insulation element 8 is held or clamped by this holding element 9 in a clip-like manner.

As can be seen from the illustration in Fig. 2, the vacuum insulation element 8 comprises on an outer side 8a, which faces the inner side 51 a, a recess 8 b, in which the retaining element 9 is sunk and in particular arranged completely embedded. This is provided over the entire width b (FIG. 3) of the vacuum insulation element 8, with the retaining element 9 on the other hand being able to protrude beyond the width b in its width. As can be seen from the illustration in FIG. 2, this embedding is designed such that an outside 9a of the holding element 9 is flush with the outside 8a. In addition, it is provided that the gap 7 is filled with a foam material 10 and this foam material having a thickness d between the inner side 51 a and the total area comprising the outer side 8 a and the outer side 9 a, practically the same everywhere. As can be seen from the illustration in FIG. 2 and also FIG. 3, in which a perspective view of the vacuum insulation element 8 is shown with the retaining element 9, the retaining element 9 is in the exemplary embodiment on the narrow sides of the vacuum insulation element 8 and on an inner side 8c, which is the case in contrast to the arrangement on the outside 8a and the outside 9a. In the embodiments according to FIGS. 2 and 3, the recess 8b is designed as a simple rectilinear rectangular geometry. In Fig. 4a to 4d further exemplary geometries of the recess 8b are shown. Thus, a tapered trapezoidal contour is shown in Fig. 4a, in which a complementary shape of the retaining element 9 can be used.

In Fig. 4b, a corner-free, groove-like contour of the recess 8b is shown in the context.

FIG. 4 c shows a further angular stepped form, which combines an embodiment according to FIGS. 2 and 3 with the embodiment in FIG. 4 a. In addition, a geometry of the recess 8b is shown in Fig. 4d, which shows a combination of the embodiment in Fig. 2 and Fig. 3 with that in Fig. 4b.

The holding element 9 is preferably made of plastic, for example of ABS (acrylonitrile-butadiene-styrene) or BS (butadiene-styrene). Preferably, the holding element 9 of two parts, between which the vacuum insulation element 8 is clamped by latching at the ends. The ends of the retaining element 9 are clamped in the device side wall so that the held between the brackets of the support member 9 vacuum insulation element 8 is fixed approximately centrally in the space 7 between the outer wall 5 and the inner wall 6.

LIST OF REFERENCE NUMBERS

Household refrigerator

accommodation space

 door

 casing

 outer wall

a to 5e outer part walls

 inner wall

a to 6e interior partitions

 gap

 Vacuum insulation element outside

b deepening

c inside

 retaining element

a outside

1 a inside

1 a outside

Claims

claims

1 . Housing (4) for a domestic refrigerator (1), comprising an outer wall (5) and an inner wall (6) spaced from the outer wall (5), and a space formed between the outer wall (5) and the inner wall (6) (7), in which at least one vacuum insulation element (8) is arranged at a distance from the outer wall (5) and the inner wall (6), characterized in that the

Vacuum insulation element (8) with at least one holding element (9) is connected, and the holding element (9) is connected to at least one housing wall, wherein the holding element (9) on an inner side (51 a) of the outer wall (5) facing the outside (8a ) of the vacuum insulation element (8) in a recess (8b) of the

Vacuum insulation element (8) is embedded embedded.

2. Housing (4) according to claim 1, characterized in that the holding element (9) on the outer side (8 a) of the vacuum insulation element (8) completely in the recess

(8b) is arranged.

3. housing (4) according to claim 1 or 2, characterized in that a

Outer side (9a) of the holding element (9) flush with the outer side (8a) of the

Vacuum insulation element (8) is arranged.

4. Housing (4) according to any one of the preceding claims, characterized in that the holding element (9) formed as, in particular of two latchable sub-elements, bracket holder is formed and the vacuum insulation element (8) is clamped by the bracket holder.

5. Housing (4) according to any one of the preceding claims, characterized in that the holding element (9), the vacuum insulation element (8), in particular band-like, surrounds.

6. Housing (4) according to any one of the preceding claims, characterized in that the holding element (9) on one of the inner wall (6) facing the inside of Vacuum insulation element (8) is arranged on the inside and protrudes from the inside.

7. housing (4) according to any one of the preceding claims, characterized in that the intermediate space (7) with a foam material (10) is filled.

8. housing (4) according to claim 7, characterized in that a thickness (d) of the foam material (10) between the inside (51 a) of the outer wall (5) and an outer side (8 a) of the vacuum insulation element (8) over the entire surface of the

Outside (8 a) of the vacuum insulation element (8) and the outside (9 a) of the

Holding element (9) is the same.

9. housing (4) according to any one of the preceding claims, characterized in that the recess (8b) over the entire width (b) of the vacuum insulation element (8) is formed.

10. Domestic refrigerating appliance (1) for receiving food with a housing (4) according to one of the preceding claims.